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Various topics related to sustainability in plastics, including bio-related, environmental issues, green, recycling, renewal, re-use and sustainability.
The concept of sustainability is often stated in a number of ways but four core principles appear throughout: Protect the environment, promote human health, conserve resources, and assure social and economic well-being to the global population. PVC resin has intrinsic properties that allow finished products to meet all four of these objectives. PVC resin and products compare favorably to other materials in life cycle assessments when reviewing key impacts of resource and energy conservation, and greenhouse gas emissions. Sustainability assessments at the business level are excellent tools to promote these principles and track performance. This paper was prepared for the Society of Plastics Engineers Annual Technical Conference (SPE ANTEC) Vinyl Session, April 22, 2013 in Cincinnati, Ohio.
Margaret Sobkowicz, Xun Chen, JeongIn Gug, May 2013
Polymers from renewable resources are beginning to compete with conventional fossil fuel derived materials as fossil resources become increasingly expensive and difficult to extract. The same lightweight, high-strength properties of petroleum-based polymers and composites are required for renewable materials, and a better understanding of processing properties will improve their prospects in the market. One route to widening the thermophysical property window of biobased polyester poly(butylene succinate) (PBS) is the incorporation of reinforcing fillers. In this work, PBS is melt-mixed with high-surface-area fumed silica to create nanocomposites. The surface of the silica nanofiller is chemically modified to explore the effects of surface functionality on filler dispersion and required mixing energy. Rheological and thermal measurements show that structural properties of the filler have a larger influence than surface modification. Comparison of blending techniques provides guidance for improved nanocomposite preparation. The demonstrated mechanical property improvements over neat polymer enable a broader range of applications for these novel renewable materials.
When a plastic part fails, a tough question is often asked, “Why are a limited number of parts failing?”. This is particularly true with seemingly random failures at significant, but low, failure rates. Two aspects are generally linked to such low failure rates, multiple factor concurrency and the statistical nature of plastic failures. Failure often only takes place when two or more factors take effect concurrently. Absent one of these factors, failure will not occur. Plastic resins and the associated forming processes produce parts with a statistical distribution of performance properties, such as strength and ductility. Likewise, environmental conditions, including stress and temperature, to which the resin is exposed through its life cycle is also a statistical distribution. Failure occurs when a portion of the distribution of stress on the parts exceeds a portion of the distribution of strength of the parts. This paper will review how the combination of multiple factor concurrency and the inherent statistical nature of plastic materials can result in seemingly random failures.
Wire and Cable manufacturers generally qualify products for class 1E application by envelope type testing to user specifications and environmental conditions recommended by IEEE standards 323- 1974 and 383-1974. Early cable qualification required only radiation in 1960s. 1960s and early 1970s added thermal aging to ICEA requirement. However the ageing requirement was very minimal (1 week @ 121°C). The long term ageing requirement was not as nearly stringent as present until IEEE 383- 1974 was added to standards. To determine the ability of samples to withstand normal operation, IEEE 383- 1974 introduced ageing samples to “End of Life” condition. Samples were heat aged to a timetemperature condition in excess of 40 years of service life. Federal law and regulation recently allowed electric companies to renew their nuclear plants’ operating licenses for 20 years beyond their original, 40-year license term, which in turn triggered IEEE standard 383-2003 to govern minimum requirements to meet 60 years.
General Cable Corporation, GCC simply in this paper, recently completed qualification programs. The major milestones in the development included (a) product life improvement of our established products, Ultol® products, from 40 yrs to 60 yrs. (b) introduction of Ultrol® medium voltage power cable with 60 year life. Cable constructions tested were 600V instrumentation cables, 600V power cables, 600V control cables, 2000V power cables and 15kV Power cables. This paper presents Arrhenius thermal aging data collected for materials used in the qualification programs using IEEE 101-1987 as basis confirms that a 90°C conductor temperature has a life in excess of 60 years.
Sirada Padee, Jessada Wong On, Teerapong Chaichalermwong, Supaphorn Thumsorn, Prayoon Surin, Chaiyaprek Apawet, Narin Kaabbuathong, Narongchai O-Charoen, Natee Srisawat, May 2013
Biodegradable poly(lactic acid) (PLA) and poly(trimethylene terephthalate) (PTT) blend fibers were prepared in this study. PLA and PTT were blended in a twin screw extruder with varied contents of PTT 0-50 wt%.The PLA/PTT blend fibers were prepared by melt spinning technique. Thermal properties and crystallization behavior of PLA/PTT blends were investigated. PLA fiber was glossy and transparent while PTT fiber was opaque. The spinning of PLA/PTT blends fiber was difficult due to the difference in melting characteristic of PLA and PTT. However, the PLA/PTT blend fiber was successfully spun at PTT content of 10 wt% with the barrel temperature of 250 °C and would be suitable for textile application.
Amber R. Tupper, Barbara A. Wheelden, Sunggyu Lee, May 2013
Polyurethanes synthesized using both unmodified and epoxidized, ring opened castor oil as a polyol were prepared and their thermal properties tested using thermogravimetric analysis and differential scanning calorimetry. Chemical changes upon degradation were investigated using Fourier transform infrared spectroscopy. The kinetics of degradation were elucidated using the Flynn-Wall and Flynn procedures. Epoxidized castor oil produces a rigid polyurethane exhibiting glassy behavior at ambient temperatures. All methods to determine activation energy of degradation indicate that, in a nitrogen environment, polyurethanes from unmodified castor oil are more thermally stable than those from modified castor oil. The appearance of peaks corresponding to amines, amides, and esters in FITR analysis of degraded samples suggests that the initial degradation step of the polyurethanes studied is the breaking of the urethane bond.
Polylactic acid (PLA) and thermoplastic polyurethane (TPU) are two kinds of biocompatible and biodegradable polymers that can be used in biomedical applications. They possess rigid and flexible mechanical properties. The TPU/PLA blend tissue scaffolds at different ratios were fabricated via twin screw extrusion and microcellular injection molding techniques (a. k. a. MuCell) for the first time. Multiple test methods were used in this study. Fourier transform infrared spectroscopy (FTIR) verified the presence of the two components in the blends. Differential scanning calorimetry (DSC) and dynamic mechanical analysis (DMA) confirmed the immiscibility between TPU and PLA. Scanning electron microscopy (SEM) images affirmed that the PLA was dispersed as spheres or islands inside the TPU matrix, and that the phase morphology further influenced the surface roughness of cells. The blends exhibited a wide range of mechanical properties that cover most human tissue requirements. It was found from DMA and viscosity tests that 25% PLA significantly reinforces the blends at low temperatures or deformation frequencies.
António Baptista, Dulcínia Santos, Elsa Henriques, May 2013
The strong emergence of new" economical and industrial regions on the globe supported by lower hand labor costs puts European Engineering & Tooling face to new challenges that evidence the necessity to develop new and revolutionary ways of making things. It is in this context and to answer to the new global challenges it was created an industrial and scientific Cluster the Portuguese Engineering and Tooling Cluster (E&T). This cluster represents an industrial value chain with specialized skills and competences from Design and Engineering to Tooling and Plastic Products. The E&T cluster is responsible for setting up a national strategy for the development and sustainability of this important economic sector combining a strong investment in technological and organizational innovation that will support a constant and progressive evolution on technical and organizational efficiency. The E&T strategic plan within 10 years is to be recognized worldwide as one of the most advanced in technological point of view and having the capacity to offer added value in the design and production of molds special tools and precision machined parts produced by injection or in materials with specific features for new applications. The R&D project ToolingEDGE - High Performance and Sustainable Production is one example of research activities being held by E&T cluster. The project aims to deploy technological solutions to prepare the E&T sector for sustainable competitiveness and to enable the penetration in new and/or added value markets considered strategic for the E&T notably: the aeronautics medical devices electronics automotive and packaging industries."
Both polylactide (PLA) and natural rubber (NR) are biocompatible and biodegradable polymers. PLA possesses high strength and modulus but low toughness, while NR exhibits excellent elasticity and ductility. In view of their complementary properties, NR seems an ideal candidate to toughen PLA. To the best of our knowledge, PLA blends showed increased ductility only when more than 10 wt% rubber was added. This study demonstrates a significant improvement in the toughness of PLA by melt blending PLA with pre-heated NR. SEM studies showed that the rubber phase was uniformly dispersed in the PLA matrix. With as little as 1 wt% NR, the elongation at break and tensile toughness of PLA/NR blend were significantly improved over those of neat PLA (207% vs. 16% and 83 MJ/m3 vs. 9 MJ/m3, respectively) without loss in tensile modulus and stress. In addition, by blending in PLA with 20 wt% NR, samples obtained did not even break in the notched Charpy impact test. FTIR spectrum indicated that carbonyl groups were generated in NR chains after hot shearing and led to enhanced compatibility between PLA and NR, which accounted for the improved toughness
Nylon is widely used in many applications. There is a vast amount of recycled nylon coming from the carpet and textile and other industries. Due to degradation and loss of viscosity, this recycled nylon has reduced performance and limited its use. The unique chemistry of alternating copolymers of ethylene and maleic anhydride provide several advantages for upgrading recycled nylon. This paper discusses the results obtained with compounding prime grade nylon as well as recycled nylon with the addition of small quantities of this copolymer and specific property improvements for applications in injection molded compounds. The resulting compounds are performance that can match or exceed prime virgin nylon at 30-50% cost savings.
Surface coatings on plastic substrates with excellent physical performance, low application cost, and minimum environmental impact are highly desirable for various commercial applications. Here we describe PPG’s ultraviolet (UV) monocoat technology for consumer electronics, which afforded both protection and decoration of plastic substrates with a single-layer colored coating system. Studies demonstrated that UV monocoat applied on plastic computer and cellphone parts successfully met or exceeded customers’ specifications, showing good adhesion to plastic substrates, excellent abrasion and scratch resistance, good chemical resistance, and high weathering stability. UV monocoat also enabled a variety of colors with a wide range of gloss for decoration of plastic substrates. In addition, UV monocoat uniquely combined a single-layer design with UV cure technology, which significantly increased on-line coating capacity and efficiency and dramatically reduced application cost and environmental impact.
Mukul Kaushik, Dirk Zierer, Jeanne Pilis, May 2013
andar® 2100 is an impact modified engineering thermoplastic resin developed to deliver consistent performance over a wide range of temperature and humidity conditions, primarily in injection molded articles. Vandar 2100 provides outstanding ductility and stiffness combined with the excellent chemical and environmental resistance properties of polyesters. The unreinforced and higher flexibility Vandar® grades fill the property gap between standard thermoplastic polyesters and elastomers. These plastics are easy to process including by injection molding and retain their impact strength down to -30 °C.
Potato starch plastified with glycerol using a twin-screw extruder under different conditions can vary the susceptibility of the plastic to micro-organisms.
Tanmay Pathak, Jason Hamilton &, James Preston, March 2013
Importance of natural fiber composites (E3): Environmental friendly ¤ Energy reduction ¤ Economically viable; Classification of Natural Fibers; RheVision®: Agro Waste Bio Composites (Proprietary Line at RheTech Inc.): Goal : To develop a finished commercial product base utilizing agro waste natural fibers.; Materials, Methods, Testing and Results; Conclusions
PLA Processors: Save 10’s of $ 1,000’s/Year in energy costs; Incur no more capital equipment costs than
running PET (May actually be less depending on fuel type); Receive the inherent benefits of PLA: Renewable resource ▪ Compost-ability ▪ Recyclability; Are Pioneers !! Handling characteristics developed over historical
experience with PLA manufacturer and processors
RENEWABLY SOURCED and BIO-BASED define the same thing. It refers to a material that contains carbon originating from a renewable plant source. DuPont™ Renewably Sourced™ materials contain a minimum of 20% renewably sourced ingredients by weight. RENEWABLY SOURCED can include BIODEGRADABLE products that can be broken down by living organisms like bacteria. It also includes durable goods that are designed for long life. Products discussed in this presentation are for high performance durable good type applications.
Dorota Neugebauer , Anna Mielanczyk, Paulina Maksym-Bebenek, February 2013
Reactive epoxide groups were incorporated into loosely-grafted or star-shaped copolymers synthesized from glycidyl methacrylate in atom transfer radical polymerization.
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Any article that is cited in another manuscript or other work is required to use the correct reference style. Below is an example of the reference style for SPE articles:
Brown, H. L. and Jones, D. H. 2016, May.
"Insert title of paper here in quotes,"
ANTEC 2016 - Indianapolis, Indiana, USA May 23-25, 2016. [On-line].
Society of Plastics Engineers
Available: www.4spe.org.
Note: if there are more than three authors you may use the first author's name and et al. EG Brown, H. L. et al.
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